Abstract
Noontime day‐to‐day variability of ionosonde and incoherent scatter radar (ISR) measurements of the E layer are analyzed for two time periods: 9–27 March 1999 and 4 October–4 November 2002. E layer variability is found to be between 5 and 7% at midlatitudes for these periods. Polar latitudes demonstrate variability ranging from ∼7 to 50%, resulting primarily from a combination of photochemical and auroral processes. In order to understand the relative importance of the various sources that drive the variability in the E layer, a one‐dimensional time‐dependent photochemical model of the Earth's upper atmosphere is developed. The model is able to reproduce E layer electron density and variability for both time periods at a number of mid‐ and low‐latitude stations. It is shown that E layer variability is dominated by variations in the incident solar flux for mid‐ and low‐latitude stations, while auroral ionization processes are estimated to contribute roughly 30% of the total variability observed at polar stations. Changes in the solar declination over the time periods studied are responsible for a secondary source of E layer variability at midlatitudes and for a primary source at high latitudes. Day‐to‐day changes in neutral atmosphere species (including observed NO densities) contribute the least to overall E layer variations, except at low latitudes, where their contribution to variability is comparable to variability induced by changes in solar declination.
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